Abstract
The response ofSagittaria lancifolia to increased water depths of 7.5 and 15 cm was examined in this field study. Water-depth treatments were achieved by digging sods containing one or two individual plants or ramets ofS. lancifolia from the marsh, removing sediment from the resulting hole, and replacing the sods in their original location at the appropriate lower elevation. Plants subjected to increased water depth of 15 cm had higher mean and maximum leaf heights than disturbed control plants. Aboveground biomass was not affected by water-depth treatment; however, 15-cm treatment plants had reduced root biomass and lowered leaf tissue concentrations of Ca, Cu, Fe, Mg, and Zn. Marsh sods at 15 cm below the marsh surface had the lowest redox potential and highest interstitial water sulfide concentration, indicating that this treatment created the most stressful belowground environment.Sagittaria lancifolia plants responded to the level of stress imposed by the experimental conditions with an altered growth form of increased leaf height.
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Literature Cited
Bandyopadhyay, B. K., S. R. Pezeshki, R. D. DeLaune, and C. W. Lindau. 1993. Influence of soil oxidation-reduction potential and salinity on nutrition, N-15 uptake, and growth ofSpartina patens. Wetlands 13:10–15.
Chabreck, R. H. 1972. Vegetation water and soil characteristics of the Louisiana coastal region. Bulletin No. 664. Louisiana State University, Agricultural Experiment Station, Baton Rouge, LA, USA.
Conner, W. H. and J. W. Day, Jr. (eds.). 1987. The ecology of Barataria Basin, Louisiana: an estuarine profile. U. S. Fish and Wildlife Service, Washington, DC, USA. Biological Report 87(7.13).
DeDatta, S. K. 1981. Principles and practices in rice production. Chapt. 4. Chemical changes in submerged rice soils. John Wiley and Sons, New York, NY, USA.
Demcheck, D. K. 1991. Louisiana hydrologic atlas map No. 6: water quality survey of the Barataria Basin, 1988. U.S. Geological Survey. Water Resources Investigations Report 90-4170.
Godfrey, R. K. and J. W. Wooten. 1979. Aquatic and wetland plants of southeastern United States. Vol. 1, monocotyledons. University of Georgia Press, Athens, GA, USA.
Grace, J. B. 1989. Effects of water depth onTypha latifolia andTypha domingensis. American Journal of Botany 75:762–768.
Grace, J. B. and R. G. Wetzel. 1982. Niche differentiation between two rhizomatous plant species:Typha latifolia andTypha angustifolia. Canadian Journal of Botany 60:46–57.
Howes, B. L., J. W. H. Dacey, and D. D. Goebringer. 1986. Factors controlling the growth form ofSpartina alterniflora: feedbacks between above-ground production, sediment oxidation, nitrogen and salinity. Journal of Ecology 74:881–898.
Jackson, M. B. and M. C. Drew. 1984. Effects of flooding on growth and metabolism of herbaceous plants. p. 47–128.In T. T. Koslowski (ed.) Flooding and Plant Growth. Academic Press, New York, NY, USA.
Koch, M. S., I. A. Mendelssohn, and K. L. McKee. 1990. Mechanism for hydrogen sulfide-induced growth limitation in wetland macrophytes. Limnology and Oceanography 35:399–408.
Kozlowski, T. T. 1984. Plant responses to flooding of soil. Bio-Science 34:162–167.
Llewellyn, D. W. and G. P. Shaffer. 1993. Marsh restoration in the presence of intense herbivory: the role ofJusticia lanceolata (Chapm.) Small. Wetlands 13:176–184.
Lieffers, V. J. and J. M. Shay. 1981. The effects of water level on the growth and reproduction ofScirpus maritimus var.paludosus. Canadian Journal of Botany 59:118–121.
Louda, S. V. 1989. Differential predation pressure: a general mechanism for structuring plant communities along complex environmental gradients? Trends in Ecology and Evolution 4:158–159.
McKee, K. L. and I. A. Mendelssohn. 1989. Response of a freshwater marsh community to increased salinity and water depth. Aquatic Botany 34:301–316.
McKee, K. L., I. A. Mendelssohn, and M. W. Hester. 1988. Reexamination of pore water sulfide concentration and redox potential near the aerial roots ofRhizophora mangle andAvicennia germinans. American Journal of Botany 75:1352–1359.
Mendelssohn, I. A. and D. M. Burdick. 1988. The relationship of soil parameters and root metabolism to primary production in periodically inundated soils. p. 398–428.In D. D. Hook, W. H. McKee, Jr., H. K. Smith, J. Gregory, V. G. Burrell, Jr., M. R. Devoe, R. E. Sojka, S. Gilbert, R. Banks, L. H. Stolzy, C. Brooks, T. D. Matthews, and T. H. Shear, (eds.) The Ecology and Management of Wetlands Volume 1: Ecology of Wetlands. Croom Helm Ltd., Breckenham, UK.
Mendelssohn, I. A. and K. L. McKee. 1987. Root metabolic response ofSpartina alterniflora to hypoxia. p. 239–253.In R. M. M. Crawford (ed.) Plant life in aquatic and amphibious habitats. British Ecological Society Special Symposium. Special Publication No. 5.
Mendelssohn, I. A. and K. L. McKee. 1988a.Spartina alterniflora die-back in Louisiana: time-course investigation of soil waterlogging effects. Journal of Ecology 76:509–521.
Mendelssohn, I. A. and K. L. McKee. 1988b. Experimental and greenhouse verification of the influence of saltwater intrusion on marsh deterioration: mechanisms of action. p. 145–180In R. E. Turner and D. R. Cahoon (eds.) Causes of wetland loss in the coastal central Gulf of Mexico. Volume II: Technical narrative Final report submitted to Minerals Management Service, New Orleans, LA, USA. OCS Study/MMS 87-0120.
Mendelssohn, I. A. and F. D. Seneca. 1980. The influence of soil drainage on the growth of salt marsh cordgrassSpartina alterniflora in North Carolina. Estuarine and Coastal Marine Science 11: 27–40.
Mendelssohn, I. A., K. L. McKee, and W. H. Patrick, Jr. 1981. Oxygen deficiency inSpartina alterniflora roots: metabolic adaptation to anoxia. Science 214:439–441.
Morris, J. T. and J. W. H. Dacey. 1984. Effects of O2 on ammonium uptake and root respiration bySpartina alterniflora. American Journal of Botany 71:979–985.
Moser, E. B., A. M. Saxton, and S. R. Pezeshki. 1990. Repeated measures analysis of variance: application to tree research. Canada Journal of Forestry Research 20:524–535.
Patrick, W. H., Jr. D. S. Mikkelsen, and B. R. Wells. 1985. Plant nutrient behavior in flooded soil. p. 197–288.In. Fertilizer Technology and Use. Third edition. Soil Science Society of America, Madison, WI, USA.
Pezeshki, S. R., R. D. DeLaune, and W. H. Patrick, Jr. 1987. Effects of flooding and salinity on photosynthesis ofSagittaria lancifolia. Marine Ecology Progress Series 41:87–91.
Potvin, C., M. J. Lechowicz, and S. Tardif. 1990. The statistical analysis of ecophysiological response curves obtained from experiments involving repeated measures. Ecology 71:1389–1400.
SAS Institute. Inc. 1991. SAS system for linear models, Third edition. SAS Institute Inc., Cary, NC, USA.
Seliskar, D. M. 1988. Waterlogging stress and ethylene production in the dune slack plant,Scirpus americanus. Journal of Experimental Botany 39:1639–1648.
Squires, L. and A. G. van der Valk. 1992. Water-depth tolerances of the dominant emergent macrophytes of the Delta Marsh, Manitoba. Canadian Journal of Botany 70:1860–1867.
Swarzenski, C. M., E. M. Swenson, C. E. Sasser, and J. G. Gosselink. 1991. Marsh mat flotation in the Louisiana Delta Plain. Journal of Ecology 79:999–1011.
Taylor, N.C., J.W. Day, Jr., and G.E. Neusanger. 1989. Ecological characterization of Jean Lafitte National Historical Park, Louisiana: basis for a management plan. p. 247–277.In W.G. Duffy and D. Clark (eds.) Marsh management in coastal Louisiana: effects and issues-proceedings of a symposium. U.S. Fish and Wildlife Service, Washington, DC, USA. Biological Report 89(22).
Turner, R. E. and D. R. Cahoon (eds.). 1987 Causes of wetland loss in the coastal central Gulf of Mexico. Volume 1: Executive summary. Final Report submitted to Minerals Management Service, New Orleans, LA, USA. OCS Study/MMS 87-0119.
U.S. Fish and Wildlife Service. 1983. Wetland changes in Lafitte National Historical Park (1956–1983). U.S. Fish and Wildlife Service, Slidell, LA USA.
Wooten, J. W. 1986. Variations in leaf characteristics of six species ofSagittaria (Alismataceae) caused by various water levels. Aquatic Botany 23:321–327.
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Howard, R.J., Mendelssohn, I.A. Effect of increased water depth on growth of a common perennial freshwater-intermediate marsh species in Coastal Louisiana. Wetlands 15, 82–91 (1995). https://doi.org/10.1007/BF03160683
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DOI: https://doi.org/10.1007/BF03160683